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Tipo da ReferênciaJournal Article
Identificador8JMKD3MGP3W34R/4397RDB
Repositóriosid.inpe.br/mtc-m21c/2020/09.16.12.51   (acesso restrito)
Metadadossid.inpe.br/mtc-m21c/2020/09.16.12.51.38
Sitemtc-m21c.sid.inpe.br
DOI10.1155/2020/9745082
Código do Detentorisadg {BR SPINPE} ibi 8JMKD3MGPCW/3DT298S
Chave de CitaçãoOliveiraReisOlivReis:2020:InHiNi
Autor1 Oliveira, Aline Capella de
2 Reis, Joares Lidovino dos
3 Oliveira, Rogerio Moraes
4 Reis, Danieli Aparecida Pereira
ORCID1 0000-0002-9149-213X
Grupo1
2
3 LABAP-COCTE-INPE-MCTIC-GOV-BR
Afiliação1 Universidade Federal de São Paulo (UNIFESP)
2 Universidade Federal de São Paulo (UNIFESP)
3 Instituto Nacional de Pesquisas Espaciais (INPE)
4 Universidade Federal de São Paulo (UNIFESP)
Endereço de e-Mail do Autor1 aline.capella@unifesp.br
2
3 rogerio.oliveira@inpe.br
TítuloThe Influence of high-temperature nitrogen plasma-based ion implantation on niobium creep behavior
RevistaAdvances in Materials Science and Engineering
Ano2020
Volume2020
ResumoNiobium has been considered for applications in the aerospace sector, but its use at high temperatures is restricted, due to the great affinity of refractory metals with oxygen, which results in the formation of oxide layers and a decrease in their mechanical resistances. In the present work, Nb samples were submitted to High-Temperature Nitrogen Plasma-Based Ion Implantation (HT-NPBII). The process runs at a working pressure between 3 and 4 mbar and negative high voltage pulses of 7 kV/30 mu s/300 Hz were applied to samples heated to 1000 degrees C, at treatment times of 1 h, 4 h, and 8 h, respectively. Microstructural and mechanical characterizations of the treated samples revealed the formation of a layer of Nb2N, with 3.0 mu m thickness and increase in the surface hardness from 225 HV for the untreated material up to about 2498 HV, for samples treated during 8 h. Creep tests were performed at 500 degrees C and with loads varying from 25 to 40 MPa. Results indicated a decrease in the secondary creep rate for treated specimens when compared to the untreated ones. This behavior can be attributed to the formation of a nitride layer on the surface of Nb that acts as barrier to avoid the oxygen diffusion into the material under high temperature conditions.
Páginase9745082
Idiomaen
Tipo de Trabalhojournal article
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Tamanho4745 KiB
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Data de Acesso18 set. 2020

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